ar always refers to an array object, and has the type
int . Except when
ar is an operand of the
sizeof or unary
& operators, it will be replaced with ("decay to") an expression of type
int * whose value is the address of the first element in the array.
So, given code like
printf("address of ar is %p\n", (void *) ar);
the first thing that happens is that the expression
ar "decays" to a pointer expression whose type is
int * and value is the same as
&a, which is cast to
void *, and that's what gets printed. The pointer value isn't stored at
ar; it's computed from
How this all gets translated to machine code is up to the compiler. Here's what gcc on linux does with it (I saved your code to a file named
layout.c, and compiled it as
gcc -o layout -ansi -pedantic -Wall -Wa,-aldh=layout.lst layout.c to get the following assembly listing):
GAS LISTING /tmp/fbgo448-tmp.359a6da/files/ccoNessg.s page 1
1 .file "layout.c"
2 .version "01.01"
5 .align 4
6 .globl main
9 0000 55 pushl %ebp
10 0001 89E5 movl %esp, %ebp
11 0003 83EC28 subl $40, %esp
12 0006 8D45D8 leal -40(%ebp), %eax
13 0009 8945F4 movl %eax, -12(%ebp)
14 000c B8000000 movl $0, %eax
15 0011 C9 leave
16 0012 C3 ret
19 0013 90 .ident "GCC: (GNU) 2.96 20000731 (Red Hat Linux 7.2 2.96-112.7.2)"
-40(%ebp) is the first element of
ptr. Line 12 computes the effective address of the item at
-40(%ebp) and saves that value to
%eax, which is then written to
So in the context of gcc/linux, the answer to your question is that the address associated with
ar contains the value of the first element. Note that the answer could be different on a different platform.